Multiple telegraphone system.



110.897,765. l PATENTBD SEPT. 1, 190s.

G. MORIN.

MULTI`PLE TELEGRAPHONE SYSTEM.

APPLIoATloN FILED Nov. 29 1907.

7 SHEETS-SHEET 1.

. By l TOHNEYS mfasvfifi. PATBNTBD SEPT. v1, 190s.

G. MORIN.

MULTIPLE TELEGRAPHONE SYSTEM.

APPLICATION FILED NOV. 29, 1907.

7 SHBBTS-SHEBT-Z- lf//TNESSES /NVENTO No. 897,765. PATENTED SEPT. 1, 1908. G. MORIN.

MULTIPLE TELEGRAPHONE SYSTEM.

I TI l D V. 1 APPL 0A 0N ILE N0 29, 907 SHEETS-SHEET 3' No. 897,765. PATENTED. SEPT. 1, 1908.

G. MORIN. MULTIPLE TELEGRABHONE SYSTEM.

APPLICATION FILED HOV. 29, 1907.

'I SHEETB-SHEET 4.

i 010.4@ HMM/M No. 897,765. PATENTED SEPT. l, 1908. G. MORIN.

MULTIPLE TELEGRAPHONE SYSTEM.4

APPLICATION FILED NOV. 29,1907.

7 sHEBTs-SHEBT 5.

.N0.897,765. PATENTED SEET.1, 190s.

G. MORIN. MULTIPLE TEEEGEAPEONE SYSTEM.

APPLICATION FILED NOV.29, 1907.

. '7 SHEETS-SHEET 6,

' fg. f5,

PATBNTED SEPT. 1, 1908.

G MORIN MULTIPLE' TBLEGRAPHONE SYSTEM. APPLICATION FILED Nov. 29, v1907.

7 SHEETS-SHEET 7.

w/rNEssEs TTOHNE YS UNITED sTATEs PATENT OFFICE.

GEORGE MORIN, OF HABANA., CUBA.

MULTIPLE TELE GRAPHONE SYSTEM.

Specification of Letters Patent.

Patented sept. 1, i908.

Application flied November 29, 1907. Serial No. 404,386.

Habana, Cuba, have invented a new and Improved Multiple Telegra hone System, of which the following is a fu l, clear, and exact description. y My invention relates to telegraphone sysv tems; my more particular object being to provide a number of se arate telegraphone disks so arranged that t ey may be brought successively into action either automatically or by hand, as desired.v l

My invention further -relates to means whereby the various disks may be readily taken out of .themachine and other disks.

My invention relates still further to various improvements in construction whereby the replaced by laction of the telegraphone is vimproved.

1 Reference is to be had to the accompanying drawings forming a part of this specification, in which similar characters of reference indicate corresponding parts in all the figures.

Figure 1 is a central vertical section through a machine provided with my im` proved telegraphone system, this view being taken upon the line 1-1 of Fig. 2, looking in the direction of the arrows, and showing the movable carriage provided with the ma netsI used for recordin "and reproducing, an also the magnets use for erasing the magnetic impressions, this view further showing various mechanical details including the motive power. for propelling the vdisks and the means for throwing the magnets into and out of circuit; Fig. .2 is a section upon the line 2- -2 of Fig. 1, looking in`the direction ofthe'arrows,

andshowing'the feed.' screw for moving the carriage, the clutch mechanism for reversing -the direction of travelof the feed screw at intervals, and f urther showing the motor mechamsm fordriving the machine, and also 'the opierated mechanism for starting the mac ne into action; Fig, 5, isa horizontal sec-- tion upon the line 5 5 of Fig'. 1, looking in magnetically-operated mechanism foi-,Startain the motor intoa'ction Fig. 3 isa horizon-- for this reason, beingJ e feed magnets; Fig. is an p enlarged. section through the -electrically-l the direction of the arrows, and showing particularly the contact mechanism for throwing the various recording and erasing magnets into and out of circuit at proper interism, operated automatically by movements of the carriage, for opening andclosing said the controller shaft which is revoluble step by step and is provided with fingers for openthereby .manipulating in proper successive order, the various circuits through the erasing and recording magnets; Fig. 7 is an end elevation of the controller shaft, showing the same as viewed from the left of Fig. 6, the p shaft in Fig. 7 however, bein turned 90 as compared with its position in ig. 6; Fig. 8 is a fragmentary front elevation, partly broken away and showing how they lvarious record disks are mounted in plos'ition and driven by appro riate caring; y 'g. 9 is an elevation of one o the c utch members used for holding the record disks, this Vview further showing how the disks are prevented from turning relatively to their support 10 is a fragmentary elevation of another one of the clutch members used for sup orting the record disks; Fig. 11 is an en arged fragmentary section showing the feed screw, and the -reversing clutch for changing the direction of rotation 'of-the feed screw for the purpose of causing the erasing and recording magnets to travel backward and forward relatively to the centers of the various disks; Fig. v12 is a fragmentar elevation showing the mountings forv t e feed screw and parts connected therewith as viewed from the left of Fig. 11; Fig. '13 is a fragmentary section showing the step by pawl, for'the purpose of'turning the controller shaft rstep by step, and thereby causing the opening and closing ofthe electrical contacts to take 1place in properjsuccessive order Fig. 1'4 is a ragmentary elevation showing additional means whereby the .controllershaft is turned step by'step, the idea being that when the movable carriage reaches one end of lits stroke, the controller shaft is turned by the mechanisml shown in Fig. 13, whereas when the carriage reaches theop'positeend of its stroke, the controller shaft is turned' by the device shown in Fig. 14 Fig. 15 is a rear elevation of the various magnets used for reing and closing the various electrical contacts, y

vals, this view furthervshowing the mechan- 1 contact mechanism; Fig. 6 is a plan view of l step gear wheel mounted upon the controller shaft and turned by the rocking of aidouble y predetermined positions nets of a pair when the carriage reaches a predetermined positionin its travel Fig. 17 is a diagrammatic view of one of the record disks, showing in full lines the record track upon one face of the disk, and in dotted lines the l' as a mounting for other parts.

'30 motor 22 is disposed within the casing and is record track upon the opposite face' thereof, this view indicating how any stray magnetic lines passing through the disk from one side to the other can do but little'harm; Fig. 18 is a diagram of the wiring of the system, this view showing particularly the motor circuit,`- the various circuits used for recording orreproducing, and also the circuits used for erasin casing 19contains portions of the mechanism and other portions are mounted upon the top of this casing and protected from the dust by a glass covering 20. A base plate 21 is secured directly upon the casing and serves Anelectric provided in the usual mannerwith terminals 23. The armature shaft of this motor is shown at 24 and is providedwith a worm 25.

' A wormwheel 26 is mounted upon a revolufree to turn. -By

ble shaft 27 and engages the worm 25. Mounted upon the shaft 27 is a pulley 28 connected by abelt 29 with a ulley 30, the latterbeing providedfcentra y with a smooth hole'- 31 extending entirely throu h it. A screw 32v extends throu h the ho e 31 and serves as an axle upon w 'ch the ulley 30 is means of a sp ine 33 lthe screw' 32 is connected with thepulley 30 in such manner that the rotationof the pulley 30 causes the screw to turn, but offers no re'- striction to the verticalor endwise movement ulley 30. A

ofthe screw through the o ,a cylinder, is

sleeve 34, having the form mounted -rigidly Qupon a bracket 35l arid is provided at its bottom with an 'adjustable screw 36. By turning this screw the altitude to which the screw 32 can'descend may' be regulated within properl limits at will.

A magnet iis shown at 37. Because of the peculiar; office of this ma t has a movable y armature 38 mounted ponan armature lev'e'r '40 and .provided with ya portion 39 rovided with a thread mating the thread o thescrew 32. The ortion 39 serves practically as a nut in its re ationto lthe screw 32, but is released from the-screw whenever the armature 38 is attracted by the magnet 37 as will be understoodfrom Fi 4. A bracket 41- supports the armature ever 40 which, 'for netv I designate it.

this purpose, is provided with a pivot pin 42. One end of the armature lever 40 terminates in an eye 43 and connected with this eye is a spring 44 leading downwardly to an adjusting winch 45. By turning this winch' the tension of the spring 44 may be regulated and consequently the pressure of the threaded portibns 39 of the armature lever against the screw 3 2 may be controlled. A bracket 46 supports a rocking lever 47. This lever is provided with a contact ortioii 47 a insulated from other parts of the ever and adapted to engage the top of the screw32 and alsoto engagea spring 48 whenever the screw 32 drops downwardly. l The contact spring 48 is mounted upon the lower end of the bracket 46 and is insulated from other metallic parts. A retra'ctng spring 49 islconnected with the lever 47 and tends to restore it into a predetermined-position wlieneventhc screw 32 is .in its lowermost position.

A contact member 50 is mounted upon the casing 19 -and is adapted to be engaged by the lever 47. The action of the parts shown in Fig. 4 is such that whenever the magnet 37 is energized, the screw32'is released and drops downwardly, electrical contact being thereby closed between the ,contact members 47 a' and 48, and-also between the lever 47 and contact member 50.. The rotation of the screw 32 continues as long as the belt29 is in motion. The electrical connection for the motorA 22 and various other parts of the mechanism may best be understood by reference to Fig. 18.

A wire 51 leads from one of thefte'rminals 23 to a battery 52' or other source of electric energy. From here a Wire 53 leads to the contact member 50. The lever 47 ,com-

vmunicates, by a wire 54, with the remaining terminal 23 of the motor; The shaft 27 (see Fig. 1.) is :supported-upon `brackets 55 and carried bythisshaft are bevel gears 56, 57,

'58,"dthese gears being rigid in relation to the shaft. Meshin withA the three bevel. gears just mentione are three other bevel gears 59, 60,61 mounted rigidly upon vertically disposed revoluble shafts 6 2, 63., 64. `These three shafts extend through tubes 65, 66, 67 which are secured at-their upper ends by hooks68, 69 7 O (see Fig, 8). Mounted upon the upper ends of' the vertical shafts 62, 63,

64 are bevel gears 71, 72, 73.V These mesh with bevelgears 74, 75, 76. For the purpose ofsupporting the three bevel gears last-mentioned'fI provide three stub shafts77; 78, 79

which are supported bythe ihooks 68,' 69, .7 0."

Clutch members 80, 81, 82 are lconnected each I with one of the stub shafts 8,79. :Clutch f` l members 83, 84, 85, mating'the clutch members 80,81, 82, are disposed oppositely thereto A sothat the clutch members are arranged m pairs, as indicated in Fig.` 8.-.

The record disksk are shown at 86,87, 88

and are mounted separately, asindicated in' Fig. 8. For instance, in order to lace the disk 87 in osition, the clutch mem er 84 is v forced to t e right, the disk inserted and the rotation ofthe disks'when mounted is pracy tically the same as if they were rigid upona single shaft common to them all. One of the disks is shown in Fig. 17 .v At 86a is a record track u on one face of the disk and at 86b is a recor( track upon the opposite face thereof. Itsometimes happens, especiall in making the record disk comparatively t 'n, that the magnetic lines impressed upon one side of the disk, findtheir way throu h the middle and affect the o posite side. Fn my system, however, as in icated in Fig. 17, any stray lines of magnetic force finding their way through the disk, can have but a minimum of effect toward producing any disturbing action in the currents used for reproducing the sounds.

Eachclutch member 83, 84 is pressed upon by a spiral spring 89 which enters a socket 90 for this purpose. A stub shaft 91 is encircled byv a spiral spring .92 which resses against the record member 85, as -in icated at the right of Fig. 4. A hand Wheel 93 is used for the purpose of turning the stub shaft 91, and through the medium of the various connecting arts, of rotatin lany or all of the record dis s 86, 87, 88 by liand in order to adjust them pro erly in position. A standard 94 supports tilfe hand wheel 93 and stub Shaft 91.

Hooks 95, 96, 97 serve as bearings for the lower ends of the revoluble shafts 62, 63, 64, as will be understood from Fig. 3. Extendl ing horizontally across the bed plate 21 (see Fig. 3) are two tubular tracks 98, 99 movable relatively to which are frame members100, 101, supported upon the tracks by aid of rollers 102. A bracket 103 connects to- A slot 111 is cut through' thebe plate 21 and the top of the casing 20 in order to allow the platev 108 tomovehorizontally, as will beunderstood from Fig. 3. Y

Slides 112,113, 114 (see Fig. 1) are connected with blocks 115, 116, 117 of insulating material, and disposed below the latter are tubes 118,119, 120 slidably mounted upon 0' 107 normally maintains-.the rod rods 121, 122', 1,23, as will be understood from Figs. 1 and `5. The rods 121, 122, 123 are su ported by short standards 124. The tu es 118, 119, 120, together with the slides y1'00, 101,-bracket 103 and other parts connected rigidly therewith, together constitute a carriage which as a whole is movable back and forth upon the horizontal rods 121 122, 123. Referrin to Fig. 11 it will be noted that the vertica shaft 62 is gears 125, 126 mounted loosely thereu on. A clutch 127 is movable relatively to t ese gears and isada ted toengage the same alter'- nately. This c utch member is splined uponv provided with bevel the shaft 62 and consequently is revoluble therewith. A bevel gear 128 meshes with the bevel gears 125, 126 and is mounted ri idly upon a threadedshaft 129. yA clutc A fork 130 en ages the revoluble clutch member 127. T is fork is provided with a downwardly projecting portion 131 carrying a pli-an t 's 131v (see Fig. 12) and supported uppn t d a 1m1 e pin is a slidm shaft 132 avin movement. T is shaft isprovi ed with a notch 133 with which a pawl 134 is adapted to engage. This pawl is provided with a pin 135 projecting horizonta y and so arranged that when the pin is lifted the pawl 134 is l raised out ofthe notch 133. Mounted upon the shaft 132 is a set. collar 136 whereby the 11, and when this occurs the pawl134 clicks into the notch and prevents the immediate return of the shaft. When, however, the pin 135 is lifted, the shaft 132 moves to the eft according 'to Fi 11; this movement isv accomplished by ai of a leaf spring 133a which is secured to the end, of the sha t.

' Referring, now, to Fig. 3, it will be. noted that the carriage carries a trigger 135a which, when the carriage reaches one end of its stroke, runs under the pin 135 and raises the pawl 1340111: of the notch 133. When, however, the carriage reaches the opposite end of its stroke, it enga es the collar 136 andmoves the shaft 13,2 int e op osite direction. This alternate movement o the shaft 132 causes the clutch fork 130 to rock and thus cause" the clutch member 127 to alternately engage the bevel gears 125, 126. Hence, the rotary motion of the feed screw 129 is first in one direction and then in the other, the reversal takingplacewat the res ective limits of'the carriage movement bac and forth. Y

The controller shaft, 137 may be seen in Fig. 6. vIt is provided with a gear 138 and is also provided Witha number of fingers 139,

A140, 141,142, 143, 1 44. Eachnger is provided at its opposite' ends withressure plates 145. The several fin ers are isposed the .gear 138 so las to turn the same ste b step as the carriage moves back and fportli (see Fi 14). This is when the carriage is at one en of its stroke. When, however, thel carriage is at the opposite end of its stroke, the wheel 138' is turned by the double pawl 138", as indicated in Fig. 13. This awl is provided with notches 138, into whic fits a eaf spring 138 d, the pawl bein supported upon a bracket 138". The dsub e pawl 138b rocks u and down, as indicated by full and dotted ines in Fig. 13, the rotation of the gear 138, and consequently of the controller shaft 137, being thus made ositive. Moreover, the .controller shaft is ocked for a moment when the carriage is thus at the end of its stroke, as will be understood from Fig. 13.

Disposed partially within the paths of the lseveral fingers 139 to 144 inclusive, are elec- From the latter a wire 161 leads to a push contact 155.

button. 162 mounted upon a telephone 163. From the push button a wire 164 leads to the startingmagnet 37 and from the latter aI wire 165 connects with a wire 166 leading downwardl to the insulated contact member 47a. onnected with the wires 165, 166 is a wire 167 leading to the battery 158.

Connected with the contact spring 48 is a wire 168 which leads upwardly to a contact 169. This contact is opened and closed by a wedge 170 of conducting material. The wedge is supported upon a rockerv shaft 171 and is actuated in either of two directions by Athe buttons 172, 173. By depressing the button 173 by hand, the wedge 170 is lifted so as to open the contact 169. By depressing the button 172, however, the wedge 17 0 closes the contact 169. From the contact 1 69 a wire 174 leads downwardly, and branching Aofi from it are wires 175, 176. The wires 174, 17 5, 176 are in electrical communication With the cOIltacts 154, 146, 150. A Wire 178 is connected with the telephone 163 and is also connected with a wire 179 leading to the contact 151 and a wire 180 leading to the .A Wire 181 leads from the wire 178 to the contact 149. Wires 182, 183 lead up to contacts 152, 156.

Connected with the wire 159 from the battery 158 isy a wire 184. Leadingupwardly from this wire are two other wires 185, 186 communicating respectivelyA with the contacts 153 and 148. The contact 146 (see top ofFig. 18) isconnected by a metallic spring 187 with a magnet 188. This magnet, like others of its kind, I designate as an erasingff magnet. record disk as to remove therefrom anyy magnetic.lines remaining u on it from previous use. I nd it a good p an to use the erasing magnets very often, for the reason that even if the disk be relatively free from magnetic impressions, or in other words, if it be magneticallyclean, the action of an erasing magnet tends to render it unusually susceptible for purposes of receiving magnetic 1mpressions.

From the erasing magnet 188 a Wire 189 leads to a conductor 19() having the form of a spring. The metallic spring 190 is connected with a wire 190, the latter beingy joined by a wire 192 which leads downwardly t0 the telephone 163. At 191 is shown one of the recording magnets. This magnet, like others of its kind, is used for the pur ose of producing magnetically upon the stee recording disk, the magnetic impressions analogous to sound waves.

or other conducting material, the latter being connected-with the contact 147.

The magnets used for recording and reproducing are provided. with pointed poles for the purpose of concentrating the lines of force upon the record disks. The reproducing magnets, however, are provided with flat The recording magnet 191 1s supported upon a spring 191a of metal.

poles, in order that each may affect a considl erable number of lines ofy force and thereby render' the erasure more nearl perfect. A metallic spring 193is connecte at itsibottoln with the contact 149. This spring su ports at its upper end a recording and repro ucing magnet 193m. ports an erasing magnet194a. The magnet 193a is connected by a spring 195 with the spring 190 and also with the wire 190m. 1n a manner similar to that above set forth a spring 196, of conducting material, supports an erasing magnet 197, the latter being connected to a wire 198. S rings 199, 200 support a magnet 201 used or recording and for reproducing, this magnet being connected by a wire 202v with the spring 199. This spring is connected by a wire 203 with the wire190. A spring 204 supports an erasing magnet 205, the latter being connected by a wire 206 with a spring 207. A spring. 208 supp orts a recording and repro ucing magnet 209, the latter being connected by a wire 210 with the spring 207. A spring 211 is connected with an erasing magnet 212 and from the latter a w1re 213 leads to a spring214. At the upper 'end of a spring 215 1s a recording and reproducing magnet 216, being connected by a wire 217 with the spring 214. All of the magnet supporting springs are insulated. The same system is continued with reference to springs 218, erasing magnet 219, recording and reproducing magnetY 220 andspring 221.

Similarly a spring` 194 sup-- This spring is connected by a wire 222 with the wire 190a. The contacts 146 to 157 inclusive, are adapted to make and `break elecl tric communication with the several magnets used for recording and reproducing, and for erasing, as will be understood from Fig.' 18.

For convenience the various wires are connectedtogether and formed into cables 223,

224, 225', as indicated-in Fig. 5. A num- 'ber of stationary wedges 226(see Figs. 15,

tion takes -place when the carnage reaches one end of its stroke, as will be understood from Fig. l 15. .The particular purpose of ,thusprying the springs apart is to facilitate the removal of the disks.

The operation of my system is as follows The operator first arranges the several record disks as indicated in Fi v8, and in the man2 ner abovel described. Tfhejwishes to erase the record surfaces existing upon the record disks owing to previous use thereof, he causes the .erasing magnets to be energized, and

throws the machine into action." If he he ,wishes to listen to' sounds reproduced by the telegra hone, he energizes only the inagnets used or recording or re reducing. If he wishes to record anythingfbr subsequent reproduction, he can energizel both the eras-- ing. magnets and the magnets used foi'jri cording. This is because the erasin rnagI l nets act upon parts of the disk ahea 'of the recording4 magnets, and in such manner as to liiicken the susceptibility'of the recording sks. In doin lthis the erasing magnets clean the dis as above described.

The movement of the carriage may be conl trolled at will. This is accomplished b manipulating the thumb piece. 110 (see Fig. 1):

For instance, by moving the thumb iece inv uestion, the carriage may be place 'in 'any esired position within its limits of stroke, and then the recording and reproducing magnets will properly perfo-rm their Work as the motor runs. Suppose, now, that the machine is ready toA start and that the carriage is at the outer end .of its stroke, representing, as nearly as practicable,l the outer edge of the disk. -Theoperator now resses the button 162 -(see lower right-han corner of Fig. 18). This causes the following circuit: battery 158,'Wire 167, Wire 165, starting magnet 37, wire 164, push button 162, wire 161, feed magnet 104, wire 1 60 and wire 159 back to battery 158. The feed magnet being -energized attractsits armature, thus forcing the rod 106 to the left, according to Fig. 18,

so that the threaded oint 106a now engages the feed screw 129. he starting magnet 37 being also energized, attracts its armature 38 and releases the screw 32 which drops downwardly its full limit. This allows the lever 47 to move andthe contact member 47a isl brought into engagement with the contact spring 48. This completes the following circuit: battery 158, wire 167, wire 166, contact member 47, contact spring 48, wire .168, contact 169, wire 174, wire 175,A contact146, spring 187, erasing magnet 188', wire 189,

l 'spring 190,- spring 195, erasing magnet 194,

spi'ing 1.94, contact 148, wire 186, wire 184, Wire 159, back to fb'attery 158. This' energizes the erasing jmagnets 188, 194, provided, of course, that the button 172 is depressed so as to close the contact 169,;

Av reproducingor recording circuit,"a s the' case may be, may now be I,traced as follows: telephone 163, wire 178, contact 147, spring 191a,recording or reproducing ma net 1 91, "s ring .190, wire 190g, wire 192, vbac to telei lione 163. ltwill be noted that .this circuit fisthe same whether the machine be used for recording or reproducing.

The movement of the lever 47, above described, also closes the motor circuit as fol-v lows: battery'r52 (or equivalent source of electric. energy), wire 53 contact 50, lever 47 (now engaging the contact), wire 54, "motor 2 2, wire 51, back to battery 52. @This circuit f starts the motor and causes the ,rotation of the Worm 25 and worm gear 26, motion being thus transmitted by the belt 29ito the pulley 30'and starting screw 32. This sc rew being dropped to the bottom by the action ofthe magnet 37, begins its vascent and upon reaching its upper limit, it raises the lever 47,'

thereby breaking the motor circuit and also the'circuit through contact members l471 ,v 48, thus rendering the machine idle and hmiting the time of its use upon this occasion. v

sol

The rod 106, as above described, is, at the beginning of the operation, at the outer end of the feed screw 129 represented, for instance, by the lower'left-hand corner o'f Fig..

3. The movement of the rod 106 is, therefore, toward rather than away from the center of the machine. The carriagere'aching its-innermost limit, however, the direction of the feedfscrew 12,9 is reversed by aid of the clutchgmechanism `shown at the left'of Fig. 11,as above described, and forthwith` the .rod 106 .beginsto travel in the opposite direction. At the instant when the reversal in the direction of the feed screw- 129 takes place, the controller shaft'turns one step as above described. Tlrii's'takes lace vat the precise instant whenftii scpr' has'moved into such position thatthe recording magnetis nearest the center of the record disk.' A' slight rotation inthe controller shaft now causes the contact finger 139 to' open the contacts 146A and 147jand to close 'the contact 1492 This shifts the circuit romthe recording or. reproducing magnet 191 tothe recording or repro- .erasing magnet in circuit.

made.

" hear itreproduced for correction,

- cording or reproducing,

the magnetic action of the disk to the op osite side thereof.' A new face of the disk eing thus brought into use, the action continues as before, with the exceptionV that the recording or reproducing magnet now being used is traveling from the center'toward the edge of the disk, there being for the time no Upon completing this stroke, thenext successive contact iinger shifts the circuit through the next'con- -tact 151 and opens the contact 146, closing the contact 150. The net result is that the circuit through the first pair of erasing magnets is broken, the circuit through the next pair of erasing magnets is closed, and the re- 'as the case may be, is done by the recording or reproduci magnet 197. Each time the carriage finis es its stroke its direction of travel is reversed, and

the current is shifted,liinally leaving the ap-- al y paratus in the condition in which it origin e started.

The o erator, by depressing the button 17 3 (,upper eft-hand corner of Fig. 18) may cut out the-erasing 'circuit as soon as the last disk is Jfinished, if he wishes to listen to the record For instance, if he has dictated something'into the telephone and wishes to he can do so by pressing the button 173 so' as to open the erasing circuit, making no other change. The action of the machine being now repeated, he will hear the re roduction. If at any time, for instance wh e he is listening to the reproduction of his own dictation, he presses the vbutton 172, he can throw the erasing magnet again into circuit, and by so doing he car cut out or obliterate any part of the record.- 44He can correctthe record after such obliterationby manipulating the apparatus partially by hand, as above described, and repeating into the telephone the words constltuting the correction. VIThese Words' are recorded upon that part of the disk corres'ponding to where the erasure took place. If the button 173 be pressed so as to leave contact 169 open, theapparatus can only reproduce. If, therefore, reproduction be all that is necessary, the operator must be care- Suppose, now, that through use the recordsh ecome exhausted, or for any reas'o :it sired to erase'vthemagnetic impr the disk'.7 This I do by starting up the apparatus, as above described, 'and depressing the push button 173] until `each p art of every disk has beenthorcughly exposed to the acful not to depress the button 172.

tion of the erasing'magnet.

Having thus' described my invention, I

claim as vnew'and desire to secure by Letters Patent 1. flhe'combination 'of a plurality of revoluble, members, each adapted to hold magnetic impressions analo ous to sound waves, means foractuating saifgl revoluble members,

for the purpose of tion from one of said record members to anma netic members associatedwith said revolub e members for the purpose of recording magnetic' impressions thereupon, and means for throwing one of said magnetic members into action and another out of action, for the purposeof making a record continuous.

2. The combination of a revoluble member provided with oppositely disposed portions, each'l ada ted to receive magnetic impressions'. analbgous to sound waves, a magnet dis 4osed adjacent to said revoluble member and) lmovable bodily in relation to the general the purpose of receiving magnetic impressions therefrom, said magnetic' member bein disposed adjacent to one of said-oppositely 'sposed ortions, asecond magnetic member dispose adjacent to the other of said o positely disposed portions, and means for sliifting a circuit from one of saidfmagnetic members to the other.

3.-'y The combination of a plurality of record members provided with magnetic surfaces, magnetic members disposed adjacent to said ma netic surfaces, circuits for controlling sai magnetic members, and means for opening one of said circuits and closing another shifting the magnetic 'acposition thereof, for

other.

4. The combination of a plurality of telegraphone disks, magnets associated with'said disks for the purpose of affecting magnetic impressions to be carried thereupon, contacts connected with said magnetic members for the purpose of opening and closing circuits therethrough, a carriage for supporting said magnetic members, and means controllable by movements of said carriage for opening and closing said contacts in a predetermined order of succession.

5. The combination of a plurality of record members, magnetic members movable relatively thereto, a' feed screw for advancin sa'id magnetic members relatively to said record members, mechanism engaging said feed screw for the purpose of controlling the general position of said magnetic membersl relatively to said record members, a movable carriage for supporting said magnetic members, and means controllable by movevments of said carriage for disengaging said 'feed screw. ionsfrom` 6. The combination of a plurality of telegraphone record members, a plurality ofl magnetic members movable relatively to sa1d record members, a feeding mechanism cornmon to all of said magnetic members forthe purpose of advancing them relatively to said disks, apd means forv successively shifting a' circuit from one of said magnetic members to another, as the o eration of the respective record members is shed.

7. The combination of a plurality of record members, a magnetic member for erasing magnetic impressions from said record members, another magnetic member for recording name to this specification in the presence of magneticimpressions upon said disks, and two subscibing Witnesses. electric mechanism controllable automatic- GEGRGE MORIN ally by the machine for energizing said mag- 5 netic members in a predetermined relative Witnesses:

order. 'VICTOR NORMAND,

In .testimony whereof I have signed my O. A. HORNsBY. 

